FreeCalypso > hg > freecalypso-sw
view gsm-fw/gpf/conf/gsmcomp.c @ 840:60a08fe672d8
gdi: rtc.c compiles
author | Space Falcon <falcon@ivan.Harhan.ORG> |
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date | Sat, 25 Apr 2015 19:33:05 +0000 |
parents | f612f9c3fe77 |
children | 86364a58aa6c |
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : Component Table for GSM +----------------------------------------------------------------------------- */ #ifndef NEW_ENTITY #define NEW_ENTITY #endif /*==== INCLUDES ===================================================*/ #include "nucleus.h" #include "typedefs.h" #include "os.h" #include "vsi.h" #include "pei.h" #include "gsmconst.h" #include "frm_defs.h" #include "frm_types.h" #include "frm_glob.h" #include "os_types.h" #include "os_glob.h" /*==== CONSTANTS ==================================================*/ /*==== EXTERNALS ==================================================*/ extern SHORT tstrcv_pei_create(T_PEI_INFO const **Info); extern SHORT tstsnd_pei_create(T_PEI_INFO const **Info); extern SHORT aci_pei_create (T_PEI_INFO const **Info); extern SHORT cst_pei_create (T_PEI_INFO const **Info); extern SHORT sim_pei_create (T_PEI_INFO const **Info); extern SHORT sms_pei_create (T_PEI_INFO const **Info); extern SHORT cc_pei_create (T_PEI_INFO const **Info); extern SHORT ss_pei_create (T_PEI_INFO const **Info); extern SHORT mm_pei_create (T_PEI_INFO const **Info); extern SHORT rr_pei_create (T_PEI_INFO const **Info); extern SHORT dl_pei_create (T_PEI_INFO const **Info); extern SHORT pl_pei_create (T_PEI_INFO const **Info); #ifdef FAX_AND_DATA extern SHORT l2r_pei_create (T_PEI_INFO const **Info); extern SHORT rlp_pei_create (T_PEI_INFO const **Info); extern SHORT fad_pei_create (T_PEI_INFO const **Info); extern SHORT t30_pei_create (T_PEI_INFO const **Info); #endif /* FAX_AND_DATA */ #ifdef UART extern SHORT uart_pei_create (T_PEI_INFO const **Info); #endif/*UART*/ #ifdef BT_ADAPTER extern SHORT bti_pei_create ( T_PEI_INFO const **Info); #endif /* BT_ADAPTER */ #ifdef FF_EOTD extern SHORT lc_pei_create (T_PEI_INFO const **Info); extern SHORT rrlp_pei_create (T_PEI_INFO const **Info); #endif /* FF_EOTD */ #ifdef CO_UDP_IP extern SHORT udp_pei_create (T_PEI_INFO const **Info); extern SHORT ip_pei_create (T_PEI_INFO const **Info); #endif #if defined (FF_WAP) || defined (FF_SAT_E) extern SHORT ppp_pei_create ( T_PEI_INFO const **Info); #endif /* FF_WAP || FF_SAT_E */ #ifdef FF_WAP #ifndef UDP_NO_WAP extern SHORT wap_pei_create (T_PEI_INFO const **Info); #endif /* UDP_NO_WAP */ #endif /* FF_WAP */ #ifndef _TARGET_ extern SHORT psi_pei_create (T_PEI_INFO const **Info); #ifdef FAX_AND_DATA extern SHORT ra_pei_create (T_PEI_INFO const **Info); #endif #endif #ifdef _TARGET_ extern SHORT l1_pei_create (T_PEI_INFO const **Info); #endif /*==== VARIABLES ==================================================*/ #ifndef _TARGET_ BOOL newTstHeader = TRUE; #endif const T_COMPONENT_ADDRESS tstrcv_list[] = { { tstrcv_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS tstsnd_list[] = { { tstsnd_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS mmi_list[] = { { aci_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS cst_list[] = { { cst_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS sim_list[] = { { sim_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS cm_list[] = { { sms_pei_create, NULL, ASSIGNED_BY_TI }, { cc_pei_create, NULL, ASSIGNED_BY_TI }, { ss_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, (int)"CM" } }; const T_COMPONENT_ADDRESS mm_list[] = { { mm_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS rr_list[] = { { rr_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS dl_list[] = { { dl_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS pl_list[] = { { pl_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #ifdef FAX_AND_DATA const T_COMPONENT_ADDRESS l2rt30_list[] = { { l2r_pei_create, NULL, ASSIGNED_BY_TI }, { t30_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, (int) "L2RT30" } }; const T_COMPONENT_ADDRESS rlpfad_list[] = { { rlp_pei_create, NULL, ASSIGNED_BY_TI }, { fad_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, (int) "RLPFAD"} }; #ifndef _TARGET_ const T_COMPONENT_ADDRESS ra_list[] = { { ra_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /* !_TARGET_ */ #endif /* FAX_AND_DATA */ #ifndef _TARGET_ #ifdef FF_TCP_IP const T_COMPONENT_ADDRESS aaa_list[] = { { NULL, "AAA", ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /* FF_TCP_IP */ #endif /* !_TARGET_ */ #ifndef _TARGET_ #ifdef FF_PSI const T_COMPONENT_ADDRESS psi_list[] = { { psi_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /*FF_PSI*/ #endif /* !_TARGET_ */ #ifdef UART const T_COMPONENT_ADDRESS uart_list[] = { { uart_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /*UART*/ #ifdef FF_EOTD const T_COMPONENT_ADDRESS eotd_list[] = { { lc_pei_create, NULL, ASSIGNED_BY_TI }, { rrlp_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, (int)"EOTD" } }; #endif /* FF_EOTD */ #ifdef FF_WAP #ifndef UDP_NO_WAP const T_COMPONENT_ADDRESS wap_list[] = { { wap_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /* UDP_NO_WAP */ #endif /* FF_WAP */ #ifdef CO_UDP_IP const T_COMPONENT_ADDRESS udp_list[] = { { udp_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS ip_list[] = { { ip_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif #if defined (FF_WAP) || defined (FF_SAT_E) const T_COMPONENT_ADDRESS ppp_list[] = { { ppp_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /* FF_WAP || FF_SAT_E */ #ifdef BT_ADAPTER const T_COMPONENT_ADDRESS bti_list[] = { { bti_pei_create, NULL, ASSIGNED_BY_TI }, { NULL, NULL, 0 } }; #endif /* BT_ADAPTER */ const T_COMPONENT_ADDRESS l1_list[] = { #ifdef _TARGET_ { l1_pei_create, NULL, ASSIGNED_BY_TI }, #else { NULL, "L1", ASSIGNED_BY_TI }, #endif { NULL, NULL, 0 } }; const T_COMPONENT_ADDRESS * const ComponentTables[]= { tstrcv_list, tstsnd_list, mmi_list, cst_list, sim_list, cm_list, mm_list, rr_list, dl_list, pl_list, #ifdef FAX_AND_DATA l2rt30_list, rlpfad_list, #ifndef _TARGET_ ra_list, #endif #endif /* FAX_AND_DATA */ #ifndef _TARGET_ #ifdef FF_TCP_IP aaa_list, #endif /* FF_TCP_IP */ #ifdef FF_PSI psi_list, #endif /*FF_PSI*/ #endif /* !_TARGET_ */ #ifdef UART uart_list, #endif #ifdef FF_EOTD eotd_list, #endif #ifdef FF_WAP #ifndef UDP_NO_WAP wap_list, #endif /* !UDP_NO_WAP */ #endif /* FF_WAP */ #ifdef CO_UDP_IP udp_list, ip_list, #endif /* CO_UDP_IP */ #if defined (FF_WAP) || defined (FF_SAT_E) ppp_list, #endif /* FF_WAP || FF_SAT_E */ #ifdef BT_ADAPTER bti_list, #endif /* BT_ADAPTER */ l1_list, NULL }; /*==== VERSIONS ===================================================*/ #ifndef CTRACE char * str2ind_version = "&0"; #endif /*==== MEMORY CONFIGURATION =======================================*/ /* * Partitions pool configuration for primitive communication */ #ifdef FAX_AND_DATA #define PRIM_PARTITION_0_SIZE 52 #define PRIM_PARTITION_1_SIZE 100 #define PRIM_PARTITION_2_SIZE 432 #define PRIM_PARTITION_3_SIZE 1600 #define PRIM_PARTITION_4_SIZE 0 #define PRIM_PARTITION_5_SIZE 0 #define PRIMPOOL_0_PARTITIONS 80 #define PRIMPOOL_1_PARTITIONS 20 #define PRIMPOOL_2_PARTITIONS 30 #define PRIMPOOL_3_PARTITIONS 3 #define PRIMPOOL_4_PARTITIONS 0 #define PRIMPOOL_5_PARTITIONS 0 #else /* no fax and data */ #define PRIM_PARTITION_0_SIZE 52 #define PRIM_PARTITION_1_SIZE 100 #define PRIM_PARTITION_2_SIZE 216 /* New */ #define PRIM_PARTITION_3_SIZE 260 /* sizeof (T_stk_cmd), do we need this? */ #define PRIM_PARTITION_4_SIZE 432 #define PRIM_PARTITION_5_SIZE 900 /* 1600 */ #define PRIMPOOL_0_PARTITIONS 80 #define PRIMPOOL_1_PARTITIONS 20 #ifdef TI_PS_UICC_CHIPSET_15 #define PRIMPOOL_2_PARTITIONS 6 /* 0 */ #else #define PRIMPOOL_2_PARTITIONS 5 /* 0 */ #endif #define PRIMPOOL_3_PARTITIONS 6 /* 0 */ /* Number to be optimized */ #ifdef TI_PS_UICC_CHIPSET_15 #define PRIMPOOL_4_PARTITIONS 6 /* 10 */ #else #define PRIMPOOL_4_PARTITIONS 5 /* 10 */ #endif #define PRIMPOOL_5_PARTITIONS 2 /* 3 */ #endif /* else, #ifdef FAX_AND_DATA */ #ifndef DATA_INT_RAM #ifdef FAX_AND_DATA unsigned int MaxPrimPartSize = PRIM_PARTITION_3_SIZE; #else unsigned int MaxPrimPartSize = PRIM_PARTITION_5_SIZE; #endif #endif /* !DATA_INT_RAM */ #if (!defined DATA_EXT_RAM && defined PRIM_0_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_0_INT_RAM) char pool10 [ POOL_SIZE(PRIMPOOL_0_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_0_SIZE)) ]; #else extern char pool10 []; #endif #if (!defined DATA_EXT_RAM && defined PRIM_1_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_1_INT_RAM) char pool11 [ POOL_SIZE(PRIMPOOL_1_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_1_SIZE)) ]; #else extern char pool11 []; #endif #if (!defined DATA_EXT_RAM && defined PRIM_2_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_2_INT_RAM) char pool12 [ POOL_SIZE(PRIMPOOL_2_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_2_SIZE)) ]; #else extern char pool12 []; #endif #if (!defined DATA_EXT_RAM && defined PRIM_3_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_3_INT_RAM) char pool13 [ POOL_SIZE(PRIMPOOL_3_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_3_SIZE)) ]; #else extern char pool13 []; #endif #ifndef FAX_AND_DATA #if (!defined DATA_EXT_RAM && defined PRIM_4_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_4_INT_RAM) char pool14 [ POOL_SIZE(PRIMPOOL_4_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_4_SIZE)) ]; #else extern char pool14 []; #endif #if (!defined DATA_EXT_RAM && defined PRIM_5_INT_RAM) || (!defined DATA_INT_RAM && !defined PRIM_5_INT_RAM) char pool15 [ POOL_SIZE(PRIMPOOL_5_PARTITIONS,ALIGN_SIZE(PRIM_PARTITION_5_SIZE)) ]; #else extern char pool15 []; #endif #endif /* FAX_AND_DATA */ #ifndef DATA_INT_RAM const T_FRM_PARTITION_POOL_CONFIG prim_grp_config[] = { { PRIMPOOL_0_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_0_SIZE), &pool10 }, { PRIMPOOL_1_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_1_SIZE), &pool11 }, { PRIMPOOL_2_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_2_SIZE), &pool12 }, { PRIMPOOL_3_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_3_SIZE), &pool13 }, #ifndef FAX_AND_DATA { PRIMPOOL_4_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_4_SIZE), &pool14 }, { PRIMPOOL_5_PARTITIONS, ALIGN_SIZE(PRIM_PARTITION_5_SIZE), &pool15 }, #endif { 0 , 0 , NULL } }; #endif /* !DATA_INT_RAM */ /* * Partitions pool configuration for test interface communication */ #define TESTPOOL_0_PARTITIONS 1 /* 10 */ #define TESTPOOL_1_PARTITIONS 15 /* 50 */ #define TESTPOOL_2_PARTITIONS 0 /* 2 */ #define TSTSND_QUEUE_ENTRIES (TESTPOOL_0_PARTITIONS+TESTPOOL_1_PARTITIONS+TESTPOOL_2_PARTITIONS) #define TSTRCV_QUEUE_ENTRIES 50 #define TEST_PARTITION_0_SIZE 16 /* 80 */ #ifdef _TARGET_ #define TEST_PARTITION_1_SIZE 160 #else #define TEST_PARTITION_1_SIZE 260 #endif /* else, #ifdef _TARGET_ */ #define TEST_PARTITION_2_SIZE 0 /* 1600 */ #ifndef DATA_INT_RAM const USHORT TST_SndQueueEntries = TSTSND_QUEUE_ENTRIES; const USHORT TST_RcvQueueEntries = TSTRCV_QUEUE_ENTRIES; const USHORT TextTracePartitionSize = TEST_PARTITION_1_SIZE; #endif /* !DATA_INT_RAM */ #if (!defined DATA_EXT_RAM && defined TEST_0_INT_RAM) || (!defined DATA_INT_RAM && !defined TEST_0_INT_RAM) char pool20 [ POOL_SIZE(TESTPOOL_0_PARTITIONS,ALIGN_SIZE(TEST_PARTITION_0_SIZE)) ]; #else extern char pool20 []; #endif #if (!defined DATA_EXT_RAM && defined TEST_1_INT_RAM) || (!defined DATA_INT_RAM && !defined TEST_1_INT_RAM) char pool21 [ POOL_SIZE(TESTPOOL_1_PARTITIONS,ALIGN_SIZE(TEST_PARTITION_1_SIZE)) ]; #else extern char pool21 []; #endif #ifndef DATA_INT_RAM const T_FRM_PARTITION_POOL_CONFIG test_grp_config[] = { { TESTPOOL_0_PARTITIONS, ALIGN_SIZE(TEST_PARTITION_0_SIZE), &pool20 }, { TESTPOOL_1_PARTITIONS, ALIGN_SIZE(TEST_PARTITION_1_SIZE), &pool21 }, { 0 , 0 , NULL } }; #endif /* !DATA_INT_RAM */ /* * Partitions pool configuration for general purpose allocation */ #define DMEM_PARTITION_0_SIZE 16 /* 100 */ /* * CQ 29245: Value of the DMEMPOOL_0_PARTITIONS has been modified from 30 to 50 */ #define DMEMPOOL_0_PARTITIONS 50 /* 10 */ /* In GPRS this is 70 */ #if (!defined DATA_EXT_RAM && defined DMEM_0_INT_RAM) || (!defined DATA_INT_RAM && !defined DMEM_0_INT_RAM) char pool30 [ POOL_SIZE(DMEMPOOL_0_PARTITIONS,ALIGN_SIZE(DMEM_PARTITION_0_SIZE)) ]; #else extern char pool30 []; #endif #ifndef DATA_INT_RAM const T_FRM_PARTITION_POOL_CONFIG dmem_grp_config[] = { { DMEMPOOL_0_PARTITIONS, ALIGN_SIZE(DMEM_PARTITION_0_SIZE), &pool30 }, { 0 , 0 , NULL } }; #endif /* !DATA_INT_RAM */ /* * Partitions group list */ #ifndef DATA_INT_RAM const T_FRM_PARTITION_GROUP_CONFIG partition_grp_config[MAX_POOL_GROUPS+1] = { { "PRIM", &prim_grp_config[0] }, { "TEST", &test_grp_config[0] }, { "DMEM", &dmem_grp_config[0] }, { NULL, NULL } }; extern T_HANDLE PrimGroupHandle; extern T_HANDLE DmemGroupHandle; extern T_HANDLE TestGroupHandle; T_HANDLE *PoolGroupHandle[MAX_POOL_GROUPS+1] = { &PrimGroupHandle, &TestGroupHandle, &DmemGroupHandle, NULL }; #endif /* !DATA_INT_RAM */ /* * Dynamic Memory Pool Configuration */ /* Detecting GSM only lite to compile using minimal settings */ #if !defined(FAX_AND_DATA) && !defined(FF_TCP_IP) && !defined(FF_EOTD) &&\ !defined(FF_WAP) && !defined(BT_ADAPTER) #define GO_LITE 1 #endif #if defined(_TARGET_) && defined(GO_LITE) #define EXT_DATA_POOL_PS_BASE_SIZE 23075 #else /* _TARGET_ && GO_LITE */ #define EXT_DATA_POOL_PS_BASE_SIZE 50000 #endif /* _TARGET_ && GO_LITE */ #undef GO_LITE /* We are not going to use this definition globally */ #ifdef MEMORY_SUPERVISION #define EXT_DATA_POOL_PPS_ADDITION ((EXT_DATA_POOL_PS_BASE_SIZE>>3)+10000) #else /* MEMORY_SUPERVISION */ #define EXT_DATA_POOL_PPS_ADDITION 0 #endif /* MEMORY_SUPERVISION */ #ifdef FAX_AND_DATA #define EXT_DATA_POOL_FD_ADDITION 13000 #else /* FAX_AND_DATA */ #define EXT_DATA_POOL_FD_ADDITION 0 #endif /* FAX_AND_DATA */ #if defined (FF_WAP) || defined (FF_SAT_E) #define EXT_DATA_POOL_WAP_ADDITION 5000 #else /* FF_WAP || FF_SAT_E */ #define EXT_DATA_POOL_WAP_ADDITION 0 #endif /* FF_WAP || FF_SAT_E */ #define EXT_DATA_POOL_PS_SIZE (EXT_DATA_POOL_PS_BASE_SIZE + EXT_DATA_POOL_PPS_ADDITION + EXT_DATA_POOL_FD_ADDITION + EXT_DATA_POOL_WAP_ADDITION) #define INT_DATA_POOL_PS_SIZE 1 /* no distinction between external/internal RAM for GO/GOLite builds */ #define EXT_DATA_POOL_GPF_SIZE (2048 + OS_QUEUE_ENTRY_SIZE(TSTSND_QUEUE_ENTRIES) + OS_QUEUE_ENTRY_SIZE(TSTRCV_QUEUE_ENTRIES)) #define EXT_DATA_POOL_SIZE (EXT_DATA_POOL_PS_SIZE + EXT_DATA_POOL_GPF_SIZE) #define INT_DATA_POOL_SIZE (INT_DATA_POOL_PS_SIZE) #ifndef DATA_INT_RAM char ext_data_pool [ EXT_DATA_POOL_SIZE ]; #endif #ifndef DATA_INT_RAM const T_MEMORY_POOL_CONFIG memory_pool_config[MAX_MEMORY_POOLS+1] = { { "EXTPOOL", EXT_DATA_POOL_SIZE, &ext_data_pool[0] }, { NULL } }; extern T_HANDLE ext_data_pool_handle; T_HANDLE *MemoryPoolHandle[MAX_MEMORY_POOLS+1] = { &ext_data_pool_handle, NULL }; #endif /* !DATA_INT_RAM */